CmaCh11G010420 (gene) Cucurbita maxima (Rimu) v1.1

Overview
NameCmaCh11G010420
Typegene
OrganismCucurbita maxima (Cucurbita maxima (Rimu) v1.1)
DescriptionAuxin efflux carrier component
LocationCma_Chr11: 5708109 .. 5725609 (+)
RNA-Seq ExpressionCmaCh11G010420
SyntenyCmaCh11G010420
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonfive_prime_UTRCDSpolypeptidethree_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
GGATGAAGAGGCTTCCAATGAACAGTGGCTGAGAAGCAATGAAGAAAAGCAGAGAAAAGTGGTTTGTTTTGTTGAAGGAAAAACTTTGAAACCCCTCGGCTGCTGGTGACCATGATTTCGTTGTCTGATGTCTATCATGTTGTGGCAGCCACAGTCCCTCTGTATGTGGCCATGATATTAGCTTACATATCAGTAAGATGGTGGAAGTTCTTCACAGCAGAGCAATGTTGTGGAATAAACAAGTTTGTGGCGAAATTCTCAATCCCACTGCTATCATTTCAAATCATTTCAGACAACAATCTCTACAAAATGAACCTGCAATTGATATTGGCTGACTTTGTTCAGAAGATATTAGCTATTGCTCTGATGGGAGCAGTGACTAAGATCACCTCTCGGGGAGGCTTGAACTGGATAATCACAGGCCTTTCTCTGTCCACCATGCCTAATACTCTCATTCTTGGGCTGCCTGTATTGAAGGCCATGTATGGCAGTGAGGCAGATGTGCTTCTTGCCCAGATTGTTGTCTTGCAGAGCGTTGTTTGGTACAACATATTGTTGTTTCTGTTTGAGTTTACTACCACTAAAGCAGCTGCTTTAGCTCCAGCATCAGAAGCCATAGGTAAGGATTGGAATTTGGTTTTTGAATCATATTATCTCAACTTTTAAAAAAAATGTTTCGTTCTTTTCCTCGACCGAGGTGGGATCTCACAATCTACCACTTTTGGGGTCCAGCGTTCTTGCTGGCACTCGTTTCCCTCTCCAATTGATATGGGATCTCATAATCCACCTACTTGGGGCCTAGCGTTCTTGCTAGCACACTGCTCAGTGTTGACTTTGATACCAATTGTAACAGCCCAAGACTACCGCTAGCCGATTTTGTCCTCTTTCAGCTCCCTTTCGAGCTTCCTCTCAAGATTTTCCCCTCAAGGTTTTTAAAACACGTCTGTTAGGGAGAGGTTTCTACACTCTTATAAAGAATTATTCGTTCTCCTCCTTAACCGATGTGGAATCTCACAATCCAACCCCTTTGGATCCAGCGTCCTCGTTTGCACACGTTCCCCTCTTCAATCAATGTCGTTCTCCTTTCCAATCGATGTGGGATCTCACAATCCACCATCCTTCAGGGCCCAGCATCTTTGCTGGCACACCACTCGGTGTCTAACTGTAATACCATTTGTAACCGCCCAAGCTCACCACTACCAGACTATTGTTCTCTTTAGGCTTGTCCTTTTAGACTTCCTCTCAAGGTTTTTAAAACACATCGGCTAGGAAGAGGTTTCCACATCCATATAAAAAATGCTTCTTTCTCCTCCCAACTAAGGTAGGATCTCACAATCTACCCCTTTAGGACCAGCATTCTCGCTGGCACTCATTCCCCTCTCCAGTCGTTATGCGATCTCACATTGTTTATCTTTCAGAAATTGATATAACTGAAGAAGGATTAGCCAAAGAAGAAGGTGAGGAAGCAAGAGACAGCAATGGAAGAAGGCACAAAACCAGGTCCATTCTCTTCACAGTTGCTAGGAAGCTCATCTACAACCCCAACACTCATGCAACAATATTAGGACTCATTTGGGCAAGCATAAGATTCAGGTAAACGAGACGCAATACCTCTGCTCTCACTTCACACATGTTTGGGGATGAAACTAACATACTCTCAGGTGGGGAGTAAAACTACCGGAAGTAATAGACCGATCCATAACAATTCTATCAACTGGAGGACTTGGTATGGCCATGTTCAGCTTAGGCCTTTTCATGGGTTCACGGACAAGCATCATAGCATGCAGTATAAAGATGACACTGGTAGCCATGGGAATGAAATTCTTAATGGGACCTGCACTTATGGCGGCATCCTCACTTCCTCTAGGCCTCAAGGGCAGATTGCTCCGAGTGGCAATCGTGCAGGTTTGTTTTAATTTGCATCACCAGTTGTGAGATCCCATATCGGTTGTGGAGGAGAACAAAACACCCTTGATAAGGGTGTGGAAACCTCTCCTTAGCGGACGCATTATAAAAATCTTGAGGGAAGGTCTAAAAGGAAAAACCCAAAGAGGACAATATCTATTAGTGGTGGGTCTAGGCCGTTACAAATGGTATTAGAGCCAGACACTGGGCGATGTTCCATGTGCCAGTAAGGAGACTGTTCCTCAAAGGGAGTAGACATGAGACGGTGTGCTAGTAAGGATGCTGGTCTTCGAAGGTGGTAGATATGGTGGGGGTCCCACATCGATTGGAAAAAGAAGCGAGTGTCAGCAAGGACGCTGGGCCCTGAAGGGGAGTGGATTGTGAGATCCCACATTGGTTGAAGAGGAGAACGAAAACAGTGGTGGAAACCTCTCCCTAGCAGACGCACTTTAAAAACCTTAAAGGAAATCCCGAAAGGGAAAGCCTAAAAAGAACAATATCTGCTAGCAATAGATCTGAGCCATTACACCAGTCCTCCAAAACGAGAATGGACAGTTTTGTTTGATTCTGTGTTCTTTGGTACAGGCCGCACTTCCTCAAGGCATTGTTCCATTTGTGTTTGCGAAAGAGTATAATATACACCCAGATGTCTTAAGCACAGGGTAACTCTTCTAACTTTCATCTCTTGGGCTCAACTAGTACTGAAATGGGGCTTTGTTTTGGTGTCAGGGTACTTCTAGGCTTGCTCGTTGCATTGCCAGTAGCATTGGCTTATTACTCCTTGCTATCATTGTAAGTCATCAATGCTGCCACGACACGACACGATACGTGGCATCGGAACACAAGAAGTTATTACATCGGCGCTAAGCACCAGGACAGACCATGTGCAGATGCAGAAAAGAAGTTTTTGAGTTATACATTTTTGTAGCCATTTTTTCCATTATGGTATACTAATGATTTAAGGACGCTGGTAAATGTGTGTGCTAAGTGTCATTGTACTTCGAGCATGACCGTGACACTATGGATACTAACGAACGAGTATTATGTGCAATAAACAAAATAGAGGGCAAGTTGCCATACTTTTGATCAATACCCGAGCGAACGAACCTCCGCTATACATGTCTGAGCATTTTTTTTACTCTGAAGACTATAAATTGTTGAAATATCAGCCGGGCTTTGAAGATTCTCTCAAAAAAAAAAAAACAATCTGAAAATGCATGAAAGTTCAACATTTCTTGGTGCTATTAACTATCAGTAAACGTCTGCTCGAGTCCACCGTTAGTATATATTGTCCACTCTGGTCCGTTACGTATTGCCGCAAGTCTCATAATTTTAAAACGTGTCTGCTAGGAAGAGATTTCCATTCTCTTATTTAGTTATTTTTATAGGTTTTTGAGCTTTGAAGTTTATCGACAAGATTAGATATAAACAGTTGTAGTGGGAGTAGAGCCTTTTTTTTCGTAGTAGTAAGAGACAAGATCATCATTTGTTAACAATATGGATGTAACGACCCTAAATTTCTACATATCTAGAGTCGCCACTAACGCCTCATGCTCATCTATAATGCGGAAATATAACTCTTACATGAACATCATTTATAACGTAAATTTCGAAAAACGTTTAAAACAACTTCTTCTCTAGAAAACACGTCTTACGTGTTTAAATACAAAATACTAAAATTTAGAGAAAATAAAAACAAATACAAAATAATTTAAAACAATGGAATGCAAAACAACATATTCTAACTTAAAACTAAGAATTTAAATATGAGTCTACCCTATGCACGTGCCACAGTCTCTGCTCGCGATGTTGCCATCCTTCGTACAAGTGCGCCTTGCCTTTACCTGAAAAATGATGTGGCACACGGCCTGAGTATTTCAAAGAATACTCAGTAAGTGGCCCCACTATAGGGGCCATGCAAATGCAAACACATGAAATCATGATTTAGGGACCTATCTCTAATCATCTTAAGGGTGGCCTCCAGTTTCGGACAAATTGAATGTGTAGTACTTCCATACACACGACTCACACGTGCGAGTGTGAATCCCCAGAGCGCTCGCACACCCCCTGGACCCTCTGGTCAAGCTAATCTATAGCTACGTCCGGAGGTTAGCAGAACCCCATAGTGTCATGCGCCTCATGAACACCCTCATCTGTGTGCATTCGCACCTATGCGCATTCGCGCTCATCATACGGTGCGCGTTCGCACTCATCATCTCTAGGGGAAGTAACCCTATGTTGGCTTATTGGCCCTTGATCTCACATTAATTAATTTCAATGAATTAATTATTGATGTTTTGATGATAACAAACCTACTTTTAATTATTAACTATTTTCAGTTTTTTGAACTGTCCACAGTATAAGGTCGGGAATAACGATTACAACAACTTTTCAATTACTCAAATCAGAGCTAAAACGAAGAAATTAGAGTCGAGACAACATACCCGACGTGATGATGTGGCAACAAAATCAAAATGATGGACAAATCAAAATATATCAAAGTATGACATTTATAATATTGGAAGAGTAACACATGGTGGAGTTTTTCTTATTATTACATTTCTAAATAAAATTATTTTTACAAATATAAATTTGAATATAACCGTTACTCACATCGAATTTTATTATTACTATATTATATTATTATATTATTATATTTTAAAATTTTGGTAGTTACTCACATCATTTTTATTATTATTATATTATTATATTTATAATAAATTTTGAATTACATTTTACCGTTACTCACATAACTTTTTATTATTATTATATTATATTACTATTATATTAAAAGTTTGAAATAAATGAATTTAGAAAATTTTCTTACTTAATTACTTTTAATCTCCACCTTCCATTATTCCTAACACAATCCAATGGTCAATATTCAATCCTACATTTTGCCACTTTTCTCCTCTATATAAACTCATCTTCCCCACATTTTTAAAACATACAACTTACATACATTCTTCAATCCTCATTTGTTCAAAGTCTCCATTGTTTATTGCTCTCTCCAAGCTTACAAGTTTATTTCTTTTCATCTTATTCTTGAGAGGGATTATTATTATATTGTGAGGAAATAGTTGTCAGTATCCCAAATTGTAAATCTACTCTTTGAGAGAGTTGTGGTGTGTTATTATCAAACTCAAATACTTGTATCGGTTTGATCCTGCGTCGTTGAAAGGATTGAGTTTGCTCTTGAACTCGTAAAAAGAGCGGTGTACCGGTTTGGCTCTGATCCGTGGAAAGAGTCGGAAAAGTTCTTTATTCAAATTCCCAAGAGGCGCTTGGGGAGTGGAGTAGGTCGAGTTTGACCGAACCACTATAAAACTACGGTGTCATTTTCTCTAACTCTTTCCTATTCAATTTCAAGATTATTATTATGTTTATTGCATGTTCTACTTGATTATTGTTTTGACTTGAATTATTTTGTTTTAGTAATTATCATCTTCTACTTATTTGTAAAAAGTTTTATCATTAGAAAAATTAATCAAGTTTAAACACTTTTATCGTTAAAACCCTATTCACCCCCCCTCTAGGGTTGCCATACCGATCCAACAATTGGTATCAGAGCCGGTTGCTCCTGTAGATTTTTTATCTAAACTTTATTGTTCGAGCTTATGGCAAACCTACATGTTAAAAATGGTTTTAGTGAAGGACAATCAACTTCTAGGCCACCTTATTTTGATGGAACAAATTATACATGTTGGAAAGCTAGGATGAAAATTTATTTGCAATCCGTTGATTATCAATTGTGGTTAAATGTTAGTAATGGTCCTTACATTCCAATAAAAATTGTTAATAATATTGAGGTGCCTAAATTAGAAAATGAATTTGATGAGCATGATATGAAAAAATGTTCTTTGAATGCTAGTGCTATCAATTGTCTGTATTGTGCCTTAAGTAATGATGAATTTAATAGAGTATGTATGTGTTCTTCGGCATATGAAATTTGGAAAACTCTTGAAGTAACTCATGAGGGAACCAATCAAGTTAAAGAAACAAAAATTAGCATGTTAGTTCATAATTATGAACTATTTAAAATGGAGGAAAATGAACCTATTGGTGATATGTTTACTAGATTTACTAATATTTTAAATGCTTTGAAAAATCTTGGAAAAGTATATTCTACCTCCGAAAATGTAAGAAAAATTCTTAGGTCTCTGCCTAAAAGTTGGGAGGCAAAAGTGACGGCGATTCAAGAAGCAAAGGATCTCACAAAGCTTCCTTTGGATGAACTCATTGGTTCTCTCATGACACATGAGATTACCATGAACGGGCACATGGAAGAAGAATCCAAAAAGAAGAAAAGTATAGCCCTAAAATCCATCAAAGTTGACTCTGAAGATGAGGACGTCCTTGATGAAGATGATGTCGCCTACTTCACACGTAAGTATAAAAATTTTATTAAAAGGAAGAAACAATTAAAAAAACATTTCACAAATCAAAAAGAGTCAAAAGGTGAAAAGAGCAAAAACGATGAGGTAATATGTTATGAATGTAAAAAGCCGGGTCATATAAGAACGGATTGTCCTCTCCTCAAATCATCTAAGAAATCCAAGAAGAAAGCAATGAAGGCTACTTGGGATGATAGTGATGAAAGTGCAAGTGGAAGTGATGAAGAAGTTGCAAATTTTTGCTTCATGGCTCATAGTGACAAAGAGGATGAACAAGAAGATGAACAAGAAGATGAGGTAACTCTTGAATCTCTTTCTTATCATGAATTATTTAAACTTGTTGATGAGATGACAATTGATTTAGAAAAACTTAGTTCAAAGTATGTTGTGCTTAAAAAGAAATATAAGACTTCAATTATTGAAAATAAGTCTTTGCTAAATGAAATTTCTTGCTTGAAGGAGAAGGATCATAATATTGTTAAAATTGATGTACCTTGTGAAAAGCATGTATTTGATTGTGATGAGAAAAATGCATTAATTGATAAAGTCAAGACTCTTGAGCATGATTGTGGTGAAAAAGATAAATTAATTAAATTGCTCAAAGAGAATGAATCAAATAATTTGCAAGAACTTGGTAGGGCTAAGGAATCTATTAAAATGTTAACAATAGGTGCTCAAAAATTAGATAAAATACTTGAAGGAGGTAAGTCATATGGTGATAAAAGAGGATTAGGCTATATTGATGAATGTTCTACACCTTCAAGTTCTAAAACAATCTTTGTTAAAGCATCCCCTATCTTGCCTAAATCTAACACATGTAAATTTGTATCTAAGTATGATAAATCTAGATTTGTGCCTATATGTCATTATTGTGGTGTTGAAGGTCATATTAGACCTAAGTGTTTTAAATTGAAAAATTCTCAAAATATTCATTTAGGAAGAAAAGTTTCTCAAAATACAAAGTTTAACAATGTTTTAGAAAATAATTTTTCGAATAAAAATAGAATACACAAATTTAGTCCAAGAAATAAATTCTTGCATAATGTCGTTTGTTTCTCGTGTGGTAAGTTTGGACATAAAGATTATTCTTGTTACTTATCTAAATACAATGTCTTTAATATGAATGCAAATATGAAATGGATTCCTAAATTTGTGAATACTAACTTTCTAGGACCCAAACAAGTATGGGTACCAAAAGGTCAATTTTGAATATCTTTGTTTTTAGGTTTGTTTGAAAGCCTCCAAGAAAAATAAGTGGTACTTGGATAGTGGTTGCTCAAGACACATGACGGGTAATCCATCCAAGTTTGTCAATCTTTCCAAGAAGGATGGTGGCTTAGTAACCTTTGGTGATAACAAGAAGGGTAAAATAATTGGTAAGGGTACTATAGGTAATGACTCTTGTACTCTCATTAAAAATGTATTGTTAGTTGATGGTTTAAAGCATGACTTACTTAGCACTAGTCAATTATGTGATAAAGGTTTTAGAGTTGTATTTGATAAGAATAATTGCATAATTGAAAATGCTAGTGATAGAAAAGTTTTGTTTGTAGGAAATAGAGACGATAATGTGTATACTATTGATTTGAATGATTGTCCTACAAATGATAAATGTCTTTCGGTTTTGATTGATAACTCTTGGCTATGGCATAGAAGACTAGGACATGCTAGTATGTACTTGATTTCAAATATTTCAAAAAATTCATTAGTGAGAGGTCTCCCTCAACTTAAATTTGAAAAAGATAAAATTTGTGACGCTTGTCAAATGGGTAAGCAAACTAAGTCTTCTTTCAAATCTAAAAATATGATTTCTACTACTAGACCTCTTCAACTACTCCATATAGACTTATTTGGCCCTTCTAAAATAGCTAGTTATGGAGGAAATTATTATGCTTTTGTGATAGTGGATGATTTTTCAAGATTTACTTGGGTTTTGATGATAAAACATAAGAATGATGTTTTGAAAAGATTTGCTAGTTTTGTAAAAAGAGTTCAAAATGAAAAAGGGTTTTTAATTACTAAAATTAGGAGTGACCATGGGGGAGAATTTAACAGTGTTGCCTTTGAAAAATTTTGTGAAGATAATGGTTTTTCTCATGAATTCTCCTCTCCAAGGACTCCTCAACAAAACGGTGTGGTTGAAAGGAAAAATCGTACTTTACAAGAATTTGCTAGATCAATGTTAAATGAGTATGATTTACCTAAATATTTTTGGGCGGAAGCCGTTAATACCGCTTGTTATATTTTAAATAGAGTTTTAATTAGACCTTCATTAAATAAAACTCCTTATGAACTCTGGCATAACAAAATTCCAAATGTTGGGTATTTCAAAGTTTTTGGTTGTAAATGTTTTATTTTGAACAACAAAGAAAAGCTTGGAAAGTTTGATTCAAAAACGGATATTGGTATTTTTCTTGGCTATTCATCTACTAGTAAAGCTTATAGAATTTTCAATAAGAGAACTTTAGTTATTGAAGAATCTATGCATGTGGTATTTGATGAATCTTGCAATAATATTTCTAATGAGTCTATTTGTAGTGATGATTTAGAAAGAAATTTTGGAGATTTACTCGTTAGTGACAACGGCAAAGAAATTGTTACGAGTAAAGAAGAGATGAGCTTAAAGGAAGAAGGTTCTTCATCAATGCCAAAAGAATGGAGGTATGCCTTGTCTCATCCCAAGGACTTGATTCTTGGTGATCTCGAACAAGGTGTGAAAACTCGCTCTTCTATTAATTTATTTAATAATCTTGCTTTTGTTTCTCAAATTGAACCAAAAAGTCTTAAGGATGCCGAAAATGATGAGTTTTGGATTTTAGCCATGCAAGAAGAGCTAAATCAATTTGAAAGGAACAAAGTTTGGGAATTAGTCCATAGGCCATCTAATACTTCTATTATTGGAACCAAATGGGTTTTTAGAAATAAAATGGATGAAAATGGGAATATCATTAGAAATAAAGCTAGGCTTGTAGCTCAAGGTTATTGTCAAGAGGAAGGCATAGATTATGAAGAAACTTTTGCACCCGTTGCTAGATTAGAAGCTATTAGAATGTTACTTGCTTTTGCTTCTTACAAAAATTTTGTATTATATCAAATGGATGTGAAAAGTGCATTTTTGAATGGTTATATTATGGAGGAAGTTTATGTAGAACAACCTCCCGGATTTGAAAATGTAGAATTTCCTCATCATGTCTATAAGTTGAAAAAGGCTCTTTATGGCTTAAAACAAGCTCCAAGAGCTTGGTATGATAGACTTAGTAATTTTCTTATTGGGAATGATTTTAAAATGGGCAAACTCGACACTACACTCTTTATTAAGATTAAAGAAAACGATATGCTATTAGTGCAAATATATGTGGATGATATCATATTTGGTTCTACTAATCCTTCTTTATGTGAAGAATTTTCTAAATGTATGCATAGTGAGTTTGAGATGAGTATGATGGGAGAACTCAGTTTCTTTCTTGGACTTCAAATCAAACAACTCAAGAATGGTATCTTCATCAATCAAGAGAAATACACTAAAGATTTGCTCAAAAGATTCAAGTTCAATGGAGGTAAGATTGCAAGAACTCCCATGAGCACATCCACTAAGCTTGACAAGGATGAAAAAGGTAAAAGTGTGGATATTAAAGCTTATCGAGGTATGATTGGATCTTTACTTTACTTGACCGCTAGTAGACCCGATATTATGTTTAGTGTATGTCTTTGTGCTAGATTTCAATCTTGTCCTAAGGAATCTCATTTACATGCCGTTAAGAGAATATTTAAATATTTGCTTGGAACTATTGATCTAGGATTGTGGTATCCTAGAAATGTTGAATTTAAATTGGTAGGATATTCTGATGCAGATTTTGCCGGAAGCTTACTTGATCGTAAAAGTACTAGTGGAACTTGTCAATTTCTTGGTAGTTCCTTAGTTTCTTGGTTTAGTAAAAAGCAAAATTCGGTTGCCTTATCTACTACCGAAGCGGAATATATTGCGGTTGCTAGTTGCTGTGCTCAAATTCTTTGGATGAAACAAACTCTTTGTGATTTTGGATTAAAGTTTCATAGTGTGCCTATATTTTGTGATAATACAAGTGCTATTAATTTAACTAAAAATCCTATTCATCATTCTAGAACTAAACATATTGACATTAGACATCATTTTATTAGAGAGCATGTGCAAAATGGACATATTATTCTTGATTTTGTAAACTCTAATAATCAACTGGCCGATATTTTCACCAAGCCATTGAATGAAGAAATTTTTTGCAAAAATAGGCTTGAGCTTGGTATTATTCGTTGTGATATATCTTGAATTTTATAATTTTTGAATGCATGTTTTTAGGGGGAGCCATTATGTCATTATTAAATGCATTCTCTTTCAATTGTTCATTTTGATGATTACAAAGGGGGAGAAAATTAAGAAAAATATGTTCTAAATTTGTTATTTTATAATTTATGAATCATTTACTTGGTGTTTCATAATTTCTTGAGGCATTAATATAAGGGAGAATATGCTCTTGAGTGAAATTTATGATAATATATTAGTATGTAGTGATATTATTACATGGATGTTGTATTATTGGTTTTTATGAATTTTTCTTTAAATGATTTGTCATCATCAAAAAGGGGGATATTGTTGGCTTATTGGCCCTTGATCTCACATTAATTAATTTCAATGAATTAATTATTGATGTTTTGATGATAACAAACCTACTTTTAATTATTAACTATTTTCAGTTTTTTGAACTGTCCACAGTATAAGGTCGGGAATAACGATTACAACAACTTTTCAATTACTCAAATCAGAGCTAAAACGAAGAAATTAGAGTCGAGACAACATACCCGACGTGATGATGTGGCAACAAAATCAAAATGATGGACAAATCAAAATATATCAAAGTATGACATTTATAATATTGGAAGAGTAACACATGGTGGAGTTTTTCTTATTATTACATTTCTAAATAAAATTATTTTTACAAATATAAATTTGAATATAACCGTTACTCACATCGAATTTTATTATTACTATATTATATTATTATATTATTATATTTTAAAATTTTGGTAGTTACTCACATCATTTTTATTATTATTATATTATTATATTTATAATAAATTTTGAATTACATTTTACCGTTACTCACATAACTTTTTATTATTATTATATTATATTACTATTATATTAAAATTTTGAAATAAATGAATTTAGAAAATTTTCTTACTTAATTACTTTTAATCTCCACCTTCCATTATTCCTAACACAATCCAATGGTCAATATTCAATCCTACATTTTGCCACTTTTCTCCTCTATATAAACTCATCTTCCCCACATTTTTAAAATATACAACTTACATACATTCTTCAATCCTCATTTGTTCAAAGTCTCCATTGTTTATTGCTCTCTCCAAGCTTACAAGTTTATTTCTTTTCATCTTATTCTTGAGAGGGATTATTATTATATTGTGAGGAAATAGTTGTCAGTATCCCAAATTGTAAATCTACTCTTTGAGAGAGTTGTGGTGTGTTATTATCAAACTCAAATACTTGTATCGGTTTGATCCTGCGTCGTTGAAAGGATTGAGTTTGCTCTTGAACTCGTAAAAAGAGCGGTGTACCGGTTTGGCTCTGATCCGTGGAAAGAGTCGGAAAAGTTATTTATTCAAATTCCCAAGAGGCGCTTGGGGAGTGGAGTAGGTCGAGTTTGACCGAACCACTATAAAACTACGGTGTCATTTTCTCTAACTCTTTCCTATTCAATTTCAAGATTATTATTATGTTTATTGCATGTTCTACTTGATTATTGTTTTGACTTGAATTATTTTGTTTTAGTAATTATCATCTTCTACTTATTTGTAAAAAGTTTTATCATTAGAAAAATTAATCAAGTTTAAACACTTTTATCGTTAAAACCCTATTCACCCCCCCTCTAGGGTTGCCATACCGATCCAACACCCTATACTTATGAACATACAATATGCATGAGATCCCTCTAAATCCATCATAATGTTTCTTCTGACACAACCCTCTAGTCTCATCTCTTTGTTACTCTAGGTAACACATACTCGTGGATATTTATATTAATATCATTTTCACGCTCTTAGAGTTGTGTCCTATGTCGATCTAATGACATGATGCAATATGACACTTATCATCATATAGCATGCTCAATATGAAAAACATCATCATATTAAGGTAAACGTCATGCAATTATCATACTCATCATATTGCCACAAATTGCATCAAACATATCAAGTACGTCATTCATCAAAATATATATATATTGCGCATATCATCAAGTATCGTAACCCACACATCATCATAACTCATACAATTTTTAGCCTATCCTATAGTAAAACCACTTACCTGTAGCTTATACGGGTGTCACCCATTTATCCTTAATGAAAGTTCGATTTTTTCCTTTGTATCCAAGCCAACCTATAAGAATCCGTGACATCAATTTCATGTTCAATTCTCTAACTCTTACAATGGTTCATGTGCTAAACTTCATGCAAGCATTAAAGACTTTGTATGGACAAAGTCTTTGAACGTTATAATCTAAATATATATACATATTATATATGTATTCTATTTATATTAAGATTTCATTTTCTATTTTTTATTTCGAATAACTCGTATCTTTCCTTCTTGTATTTTTTTTAATATTCTAATTAATTCTTCCTTCCAAATCTTTCATTTATCTTATCTGTATCTTCTTTTTTTTTTTTACAGATAAATTTTCTTTCTGAATCTTTCCTTTCTTATTCACCGATTTTCTCTTTTTCTCTCTCTCGGTTATGTATTTACTTCCTATCTTCCCATTTTTCTATTGTATATATTTTTTTATTCTATTGACAAATATTTTCCTCATTTATTCCCGTTATTTTCTATAACCTAACATCATAACCAAAAATCTAAATAACTGGTCAAGGGAACAAGAGATCTAATTCTGAATAATTAGACGAAGGAAAAGGAAATCTGATTCTTACTGATTTCTTATAATAAGATAAATGAAAATAAGATCTGAAATATGACATAATAACAACAAAGCAAGATCTCTCTCCAAAAATTAAATCTCCAGCTCTCTTTTGCATGTTGGTATTTTTTTCTTTTTTTTTTGGGGTAGGAACCTAATCTGGTTTTGTGAGTTGGTTGAGAAGAGATAGTTGATGCATCCTATATTCTGGATTGAGATTTTGACTGATGAGGTTGTTGAGGAGAGATAGTTTGGTAGAGGAAGAGGGGTGAGGAGAGAGTAGTTGAGGGAAAATTATTATTTTAATTATTTACTTATTTATTATTATTATTTTTTCGGGTCGTTAAAATGCATGAACGATATTGTACTCCACGTGCACAAGCGCGCACATACATACAAGAGTTTTTTCGTGACGCAATCAGATAATTTTATAAGAAAATACTGTTTTTCTTATCGGGTTGTGGTGCCTTGAAAGTAAATAGCTTTTGTTGAGTTATTGAGCATAGTTTGTAGTGTGAATCGAGAGTTTTAGTAGTCGCTAATTGTAATAGAACGTGCACAAGCTAGTATAGTTTGTGCGTCGTTTCTTTTCTCTCTCTTATGACCAACTTATTGTGATTTGTTCTGTCACAGTCTTTTTTTTTTTTTTTTAATTTTTGCATATTTTCTCCATGGTCGGGACAAGAGTTGTGATCGTGCGAGAGTGAGCTAACTCCAAATACAACATACTATGAAATAGAATTGGAAAGGTGTTTATTATCAGTGATATTGAAATCCTTTAAATAGGATACAACCTAATACAAATGAGGAAAATATAAAATATATTGTAAATCAAATCATAAATAAAAGATATAGTATCGAAGATATATTCCATAACTAAATATATTCTTCAATATTTGAACCAATTCACTCACCAAATATTATTATCTTAAAAGGTTTTTTATTTTTTATTTTTTATTTTTTTTTATTTTTGTAGAATTATTTATCTAAAATGATATCGCCTCAATTTTGTAATTTTCCCATACACTTAAATTAAAATATTTGAGCTTCACAGAAAAAAGAAAAAAGAAAAAAGAAAAAAGAGAAACAATATTATCATCCTTCAAGAAATTAAAAAAAAAAAAAAAAATCAACGGTCATAAAGGCTACATTGTGACCCTTTGTCTTAGAATCCAACGGTATGAAGACAATTAAGAAAAAAAAAAAGCGCTGAAATTAGGGTTTTGAAGGTGTATATGAGAGCCACCGATTTCTCCAACCATTTTCTACAGCTTCGGGGAAGAGGACTATCGTATTTCTTTGGGAATTTTCATTTCATTTCATTTTCCATTCCTACAAATCATGGGGAAGGGTCCTGGTCTCTACTCTGATATCGGCAAGAGAGCTAGAGGTTATTGATTTCTTCATCTTCATTTCTGGGTTCCGTTTTCCCCCCTTGTAATATGGTGTTCAATATGTCATTTTTGTTGATTTTTTCTTCAAATTTTGTTGTGTTTTTCCTTTTTCTTTGGCAGATCTTCTTTACAGAGACTACCAGAGCGACCAGAAGTTCACCATCACCACTTACTCCCCCACTGGAGTTGTGAGTTCGTCCTGCCACACTTTCTTCAGATTCTAGATCTGTTTTTGTGTCTAAGATACACTTGTGGATGTAATTTCCATTCGTGAATGAATCTTGAAGAACGCAAAAGAGAAGAAAAAACAAAAAATGAAAATAAGCTTCTTAATATACTTTCTTGACTTCTCTATGCTGTTCTATGGATTGCAATTATGATCTTCGTTTCTGTTTGTAATCGATATTGAACGTATTATCAGAACTTATTACAGCCTTCCTTGATATATATAATTTGGGTTGGGTTTCGATTCTTTGAGGTAATGAATATAGGGTTTTCTTTTATTTGAATGATCATTGACAAATGCGCTTGCATTACCACTCTGTTTTTTGGGCATCATTGGTTTCTTTTCGTGTAAAATAAATTGTAGTTGCTCTAATGTTTGGTTACTTTGCATTTTGTTTGTGTTGCATGCACCAATCATCATCCACAGTGATTCATAATTCTTTTGCACCAGAGGTTTCTTTGAATTAGTTCAGGCTTCCATTAAAAGTTCCAAGTTCCATCTCAGATTTGCTGCTTGCTTGCTTGCTAGTTTTTTGTACTTAGTATTTGGATGTAACTTCGATAATTCTTCTCCTCTATTGTTACAAGCCTTTTCTAATTCTTTGTTTATGTGTTTTTATTTGTAGGCTATAACATCTTCAGGAACGAAGAAGGGTGACCTGTTTTTGGGTGATGTTAATACTCAGCTCAAGAACAAAAACATCACGACCGATATCAAAGTTGACACAAGCTCCAATGTAATCTATTTTTCTTTTAACTTTTCTACTTTGTTATCCTTCAGATTATGATTAAGTATGTACCTGCTCGTCTCTCTGTCTCCCTCTCCCCCCATTACTTTATACCAGTTTTAAAATTTTATACATTTAAACTTCCATAGTTTTTTCCATTAGCCTATCAAGAAACTTTAAGGTTCACTTGTAGTATCATTGTTGTTTCATGTTTATATCTGAATGTCTATGATTTTTATCCAATTATGGGGCACTATGCAGCTTAAGGTCCTTTGAAAAAGTCTAAATGATATACAGAAAGTAAATGTGAACTGTTCACAATCAAGGATTATATGATCATGTATAGCTGTATGAACATGCGAAGTATACTGATTAAAATACCAACATAGAGTATAACATTTGAATCAAGTTTTTGTCTCGATTCTTTTTGTGGAAGGTAGACTCTCTTGTCTAGTTCAATTCCTTCGAACTTCTATTGATTAGAATAGGAAACCATAATTCTTCATAGTCAATAGTCATAGGTTGGTCCATTTTCATGTTGAAAGCAGCACGATTACCTCTCTTTGTAGCTCATATCAGTTAACAATCTAAGAAATGCTGTTCTGAAATTTTGTAGCTTGTTACAACTATAACTGTGGATGAACCTGCTCCTGGATTGAAGGCAATACTTAGTTTCAAAGTCCCTGATCAAAGGTCTGGTAAGGTGAGTGATGGAATAATGTACTTTCAGACTCTGGATATTGTATCCTACTTTTTGATGGAGTTGTGCATTTTCTTTTTCATTTTGTGCTGACTGACGTGTTGAAATAGTTATAAACTAGTTGATAAGAATCAACCAACTGATTTTTGTTTTTGTCAAGTAGGTGGAACTGCAATATCTGCATGACTATGCTGGAATCAGCACGAGTATTGGGTTGACAGCCAATCCTATCGTCAACTTTTCTGGTGTCGTTGGGTCAAATCTTCTTGCCCTTGGTACCGATCTCTCATTTGACACCAAAACTGGAAACTTCACCAAAGTCAATACTGGACTGAGCTTTGCTAACGCAGACCTAATTGCTTCTCTGACCTTGTGAGTTTTCTAGTCAACTCTCTTACAGGTTTATGAGTTTTACTCCTTTTTGGTACATATTAACGGGAATTATGTCCATTAATGACCCAGGAATGACAAGGGTGATACGTTGAGTGCATCATACTATCACACAGTGAACCCTTTGACCAGCACAGCCGTCGGAGCGGAGGTCGCTCACAGCTTTTCCTCCAATGAGAATACGATCACTGTTGGAACTCAACATGCACTTGATCCACTGACCACGGTGAAGGCTCGAGTGAACAACTTTGGGAAGGCAAGTGCTCTTATCCAGCACGAGTGGCGTCCAAAGTCGTTCTTCACTGTATCTGGTGAGGTAGACACCAAAGCGATTGACAAGAGTGCTAAGGTTGGACTAGCTTTGGCCCTCAAGCCATGATAGGACAAATTTATTACTCGCTATGGCTGGAAGAATTAAGGTAGAGTTTTCTGGTACATAGCTCCCCAAGTTGTTTGCTGAGACCTCGATGATATGTGTTGATGAATGTTGCCGCCAGTTGTTTTGGATTGTAGAAATAAATGTTAAGATGATGATGTGGGTATCATAGACATATATTTGGTACCGTTTTTTGCACTGTGATCAGTACCTTTTGAAACCGGGCCAGATGAAACTGGTTGAGGAGGAGATTTACAATTGAAATATTGTTCCATTTTTCTTTCTTTTTAAAGCATCTTTTTTGCTATTCAATCTCCGTTCCACTACCTACTTTTTTTTTTTTGTTTTATTGCCAATAAATACTTTATGGATTGAGTTTGTTTTCCCCTCAAATTACAATCTATCTTTATTGTTAATTTAA

mRNA sequence

GGATGAAGAGGCTTCCAATGAACAGTGGCTGAGAAGCAATGAAGAAAAGCAGAGAAAAGTGGTTTGTTTTGTTGAAGGAAAAACTTTGAAACCCCTCGGCTGCTGGTGACCATGATTTCGTTGTCTGATGTCTATCATGTTGTGGCAGCCACAGTCCCTCTGTATGTGGCCATGATATTAGCTTACATATCAGTAAGATGGTGGAAGTTCTTCACAGCAGAGCAATGTTGTGGAATAAACAAGTTTGTGGCGAAATTCTCAATCCCACTGCTATCATTTCAAATCATTTCAGACAACAATCTCTACAAAATGAACCTGCAATTGATATTGGCTGACTTTGTTCAGAAGATATTAGCTATTGCTCTGATGGGAGCAGTGACTAAGATCACCTCTCGGGGAGGCTTGAACTGGATAATCACAGGCCTTTCTCTGTCCACCATGCCTAATACTCTCATTCTTGGGCTGCCTGTATTGAAGGCCATGTATGGCAGTGAGGCAGATGTGCTTCTTGCCCAGATTGTTGTCTTGCAGAGCGTTGTTTGGTACAACATATTGTTGTTTCTGTTTGAGTTTACTACCACTAAAGCAGCTGCTTTAGCTCCAGCATCAGAAGCCATAGAAATTGATATAACTGAAGAAGGATTAGCCAAAGAAGAAGGTGAGGAAGCAAGAGACAGCAATGGAAGAAGGCACAAAACCAGGTCCATTCTCTTCACAGTTGCTAGGAAGCTCATCTACAACCCCAACACTCATGCAACAATATTAGGACTCATTTGGGCAAGCATAAGATTCAGGTGGGGAGTAAAACTACCGGAAGTAATAGACCGATCCATAACAATTCTATCAACTGGAGGACTTGGTATGGCCATGTTCAGCTTAGGCCTTTTCATGGGTTCACGGACAAGCATCATAGCATGCAGTATAAAGATGACACTGGTAGCCATGGGAATGAAATTCTTAATGGGACCTGCACTTATGGCGGCATCCTCACTTCCTCTAGGCCTCAAGGGCAGATTGCTCCGAGTGGCAATCGTGCAGGCCGCACTTCCTCAAGGCATTGTTCCATTTGTGTTTGCGAAAGAGTATAATATACACCCAGATGTCTTAAGCACAGGGGTACTTCTAGGCTTGCTCGTTGCATTGCCAGTAGCATTGGCTTATTACTCCTTGCTATCATTGTCTCTGCCTAAAAGTTGGGAGGCAAAAGTGACGGCGATTCAAGAAGCAAAGGATCTCACAAAGCTTCCTTTGGATGAACTCATTGGTTCTCTCATGACACATGAGATTACCATGAACGGGCACATGGAAGAAGAATCCAAAAAGAAGAAAAGTATAGCCCTAAAATCCATCAAAGTTGACTCTGAAGATGAGGACGTCCTTGATGAAGATGATGTCGCCTACTTCACACGTGAAAAGAGCAAAAACGATGAGGTAATATGTTATGAATGTAAAAAGCCGGGTCATATAAGAACGGATTGTCCTCTCCTCAAATCATCTAAGAAATCCAAGAAGAAAGCAATGAAGGCTACTTGGGATGATAGTGATGAAAGTGCAAGTGGAAGTGATGAAGAAGTTGCAAATTTTTGCTTCATGGCTCATAGTGACAAAGAGGATGAACAAGAAGATGAACAAGAAGATGAGGTTTGTTTGAAAGCCTCCAAGAAAAATAAGTGGTACTTGGATAGTGGTTGCTCAAGACACATGACGGGTAATCCATCCAAGTTTGTCAATCTTTCCAAGAAGGATGGTGGCTTAGTAACCTTTGGTGATAACAAGAAGGGTAAAATAATTGGTAAGGGTACTATAGAAAGAAATTTTGGAGATTTACTCGTTAGTGACAACGGCAAAGAAATTGTTACGAGTAAAGAAGAGATGAGCTTAAAGGAAGAAGGTTCTTCATCAATGCCAAAAGAATGGAGGTATGCCTTGTCTCATCCCAAGGACTTGATTCTTGGTGATCTCGAACAAGGTGTGAAAACTCGCTCTTCTATTAATTTATTTAATAATCTTGCTTTTGTTTCTCAAATTGAACCAAAAAGTCTTAAGGATGCCGAAAATGATGAGTTTTGGATTTTAGCCATGCAAGAAGAGCTAAATCAATTTGAAAGGAACAAAGTTTGGGAATTAGTCCATAGGCCATCTAATACTTCTATTATTGGAACCAAATGGGTTTTTAGAAATAAAATGGATGAAAATGGGAATATCATTAGAAATAAAGCTAGGCTTGTAGCTCAAGGTTATTGTCAAGAGGAAGGCATAGATTATGAAGAAACTTTTGCACCCGTTGCTAGATTAGAAGCTATTAGAATGTTACTTGCTTTTGCTTCTTACAAAAATTTTGTATTATATCAAATGGATGTGAAAAGTGCATTTTTGAATGGTTATATTATGGAGGAAGTTTATGTAGAACAACCTCCCGGATTTGAAAATGTAGAATTTCCTCATCATGTCTATAAGTTGAAAAAGGCTCTTTATGGCTTAAAACAAGCTCCAAGAGCTTGCTTCGGGGAAGAGGACTATCGTATTTCTTTGGGAATTTTCATTTCATTTCATTTTCCATTCCTACAAATCATGGGGAAGGGTCCTGGTCTCTACTCTGATATCGGCAAGAGAGCTAGAGATCTTCTTTACAGAGACTACCAGAGCGACCAGAAGTTCACCATCACCACTTACTCCCCCACTGGAGTTGCTATAACATCTTCAGGAACGAAGAAGGGTGACCTGTTTTTGGGTGATGTTAATACTCAGCTCAAGAACAAAAACATCACGACCGATATCAAAGTTGACACAAGCTCCAATCTTGTTACAACTATAACTGTGGATGAACCTGCTCCTGGATTGAAGGCAATACTTAGTTTCAAAGTCCCTGATCAAAGGTCTGGTAAGGTGGAACTGCAATATCTGCATGACTATGCTGGAATCAGCACGAGTATTGGGTTGACAGCCAATCCTATCGTCAACTTTTCTGGTGTCGTTGGGTCAAATCTTCTTGCCCTTGGTACCGATCTCTCATTTGACACCAAAACTGGAAACTTCACCAAAGTCAATACTGGACTGAGCTTTGCTAACGCAGACCTAATTGCTTCTCTGACCTTGAATGACAAGGGTGATACGTTGAGTGCATCATACTATCACACAGTGAACCCTTTGACCAGCACAGCCGTCGGAGCGGAGGTCGCTCACAGCTTTTCCTCCAATGAGAATACGATCACTGTTGGAACTCAACATGCACTTGATCCACTGACCACGGTGAAGGCTCGAGTGAACAACTTTGGGAAGGCAAGTGCTCTTATCCAGCACGAGTGGCGTCCAAAGTCGTTCTTCACTGTATCTGGTGAGGTAGACACCAAAGCGATTGACAAGAGTGCTAAGGTTGGACTAGCTTTGGCCCTCAAGCCATGATAGGACAAATTTATTACTCGCTATGGCTGGAAGAATTAAGGTAGAGTTTTCTGGTACATAGCTCCCCAAGTTGTTTGCTGAGACCTCGATGATATGTGTTGATGAATGTTGCCGCCAGTTGTTTTGGATTGTAGAAATAAATGTTAAGATGATGATGTGGGTATCATAGACATATATTTGGTACCGTTTTTTGCACTGTGATCAGTACCTTTTGAAACCGGGCCAGATGAAACTGGTTGAGGAGGAGATTTACAATTGAAATATTGTTCCATTTTTCTTTCTTTTTAAAGCATCTTTTTTGCTATTCAATCTCCGTTCCACTACCTACTTTTTTTTTTTTGTTTTATTGCCAATAAATACTTTATGGATTGAGTTTGTTTTCCCCTCAAATTACAATCTATCTTTATTGTTAATTTAA

Coding sequence (CDS)

ATGATTTCGTTGTCTGATGTCTATCATGTTGTGGCAGCCACAGTCCCTCTGTATGTGGCCATGATATTAGCTTACATATCAGTAAGATGGTGGAAGTTCTTCACAGCAGAGCAATGTTGTGGAATAAACAAGTTTGTGGCGAAATTCTCAATCCCACTGCTATCATTTCAAATCATTTCAGACAACAATCTCTACAAAATGAACCTGCAATTGATATTGGCTGACTTTGTTCAGAAGATATTAGCTATTGCTCTGATGGGAGCAGTGACTAAGATCACCTCTCGGGGAGGCTTGAACTGGATAATCACAGGCCTTTCTCTGTCCACCATGCCTAATACTCTCATTCTTGGGCTGCCTGTATTGAAGGCCATGTATGGCAGTGAGGCAGATGTGCTTCTTGCCCAGATTGTTGTCTTGCAGAGCGTTGTTTGGTACAACATATTGTTGTTTCTGTTTGAGTTTACTACCACTAAAGCAGCTGCTTTAGCTCCAGCATCAGAAGCCATAGAAATTGATATAACTGAAGAAGGATTAGCCAAAGAAGAAGGTGAGGAAGCAAGAGACAGCAATGGAAGAAGGCACAAAACCAGGTCCATTCTCTTCACAGTTGCTAGGAAGCTCATCTACAACCCCAACACTCATGCAACAATATTAGGACTCATTTGGGCAAGCATAAGATTCAGGTGGGGAGTAAAACTACCGGAAGTAATAGACCGATCCATAACAATTCTATCAACTGGAGGACTTGGTATGGCCATGTTCAGCTTAGGCCTTTTCATGGGTTCACGGACAAGCATCATAGCATGCAGTATAAAGATGACACTGGTAGCCATGGGAATGAAATTCTTAATGGGACCTGCACTTATGGCGGCATCCTCACTTCCTCTAGGCCTCAAGGGCAGATTGCTCCGAGTGGCAATCGTGCAGGCCGCACTTCCTCAAGGCATTGTTCCATTTGTGTTTGCGAAAGAGTATAATATACACCCAGATGTCTTAAGCACAGGGGTACTTCTAGGCTTGCTCGTTGCATTGCCAGTAGCATTGGCTTATTACTCCTTGCTATCATTGTCTCTGCCTAAAAGTTGGGAGGCAAAAGTGACGGCGATTCAAGAAGCAAAGGATCTCACAAAGCTTCCTTTGGATGAACTCATTGGTTCTCTCATGACACATGAGATTACCATGAACGGGCACATGGAAGAAGAATCCAAAAAGAAGAAAAGTATAGCCCTAAAATCCATCAAAGTTGACTCTGAAGATGAGGACGTCCTTGATGAAGATGATGTCGCCTACTTCACACGTGAAAAGAGCAAAAACGATGAGGTAATATGTTATGAATGTAAAAAGCCGGGTCATATAAGAACGGATTGTCCTCTCCTCAAATCATCTAAGAAATCCAAGAAGAAAGCAATGAAGGCTACTTGGGATGATAGTGATGAAAGTGCAAGTGGAAGTGATGAAGAAGTTGCAAATTTTTGCTTCATGGCTCATAGTGACAAAGAGGATGAACAAGAAGATGAACAAGAAGATGAGGTTTGTTTGAAAGCCTCCAAGAAAAATAAGTGGTACTTGGATAGTGGTTGCTCAAGACACATGACGGGTAATCCATCCAAGTTTGTCAATCTTTCCAAGAAGGATGGTGGCTTAGTAACCTTTGGTGATAACAAGAAGGGTAAAATAATTGGTAAGGGTACTATAGAAAGAAATTTTGGAGATTTACTCGTTAGTGACAACGGCAAAGAAATTGTTACGAGTAAAGAAGAGATGAGCTTAAAGGAAGAAGGTTCTTCATCAATGCCAAAAGAATGGAGGTATGCCTTGTCTCATCCCAAGGACTTGATTCTTGGTGATCTCGAACAAGGTGTGAAAACTCGCTCTTCTATTAATTTATTTAATAATCTTGCTTTTGTTTCTCAAATTGAACCAAAAAGTCTTAAGGATGCCGAAAATGATGAGTTTTGGATTTTAGCCATGCAAGAAGAGCTAAATCAATTTGAAAGGAACAAAGTTTGGGAATTAGTCCATAGGCCATCTAATACTTCTATTATTGGAACCAAATGGGTTTTTAGAAATAAAATGGATGAAAATGGGAATATCATTAGAAATAAAGCTAGGCTTGTAGCTCAAGGTTATTGTCAAGAGGAAGGCATAGATTATGAAGAAACTTTTGCACCCGTTGCTAGATTAGAAGCTATTAGAATGTTACTTGCTTTTGCTTCTTACAAAAATTTTGTATTATATCAAATGGATGTGAAAAGTGCATTTTTGAATGGTTATATTATGGAGGAAGTTTATGTAGAACAACCTCCCGGATTTGAAAATGTAGAATTTCCTCATCATGTCTATAAGTTGAAAAAGGCTCTTTATGGCTTAAAACAAGCTCCAAGAGCTTGCTTCGGGGAAGAGGACTATCGTATTTCTTTGGGAATTTTCATTTCATTTCATTTTCCATTCCTACAAATCATGGGGAAGGGTCCTGGTCTCTACTCTGATATCGGCAAGAGAGCTAGAGATCTTCTTTACAGAGACTACCAGAGCGACCAGAAGTTCACCATCACCACTTACTCCCCCACTGGAGTTGCTATAACATCTTCAGGAACGAAGAAGGGTGACCTGTTTTTGGGTGATGTTAATACTCAGCTCAAGAACAAAAACATCACGACCGATATCAAAGTTGACACAAGCTCCAATCTTGTTACAACTATAACTGTGGATGAACCTGCTCCTGGATTGAAGGCAATACTTAGTTTCAAAGTCCCTGATCAAAGGTCTGGTAAGGTGGAACTGCAATATCTGCATGACTATGCTGGAATCAGCACGAGTATTGGGTTGACAGCCAATCCTATCGTCAACTTTTCTGGTGTCGTTGGGTCAAATCTTCTTGCCCTTGGTACCGATCTCTCATTTGACACCAAAACTGGAAACTTCACCAAAGTCAATACTGGACTGAGCTTTGCTAACGCAGACCTAATTGCTTCTCTGACCTTGAATGACAAGGGTGATACGTTGAGTGCATCATACTATCACACAGTGAACCCTTTGACCAGCACAGCCGTCGGAGCGGAGGTCGCTCACAGCTTTTCCTCCAATGAGAATACGATCACTGTTGGAACTCAACATGCACTTGATCCACTGACCACGGTGAAGGCTCGAGTGAACAACTTTGGGAAGGCAAGTGCTCTTATCCAGCACGAGTGGCGTCCAAAGTCGTTCTTCACTGTATCTGGTGAGGTAGACACCAAAGCGATTGACAAGAGTGCTAAGGTTGGACTAGCTTTGGCCCTCAAGCCATGA

Protein sequence

MISLSDVYHVVAATVPLYVAMILAYISVRWWKFFTAEQCCGINKFVAKFSIPLLSFQIISDNNLYKMNLQLILADFVQKILAIALMGAVTKITSRGGLNWIITGLSLSTMPNTLILGLPVLKAMYGSEADVLLAQIVVLQSVVWYNILLFLFEFTTTKAAALAPASEAIEIDITEEGLAKEEGEEARDSNGRRHKTRSILFTVARKLIYNPNTHATILGLIWASIRFRWGVKLPEVIDRSITILSTGGLGMAMFSLGLFMGSRTSIIACSIKMTLVAMGMKFLMGPALMAASSLPLGLKGRLLRVAIVQAALPQGIVPFVFAKEYNIHPDVLSTGVLLGLLVALPVALAYYSLLSLSLPKSWEAKVTAIQEAKDLTKLPLDELIGSLMTHEITMNGHMEEESKKKKSIALKSIKVDSEDEDVLDEDDVAYFTREKSKNDEVICYECKKPGHIRTDCPLLKSSKKSKKKAMKATWDDSDESASGSDEEVANFCFMAHSDKEDEQEDEQEDEVCLKASKKNKWYLDSGCSRHMTGNPSKFVNLSKKDGGLVTFGDNKKGKIIGKGTIERNFGDLLVSDNGKEIVTSKEEMSLKEEGSSSMPKEWRYALSHPKDLILGDLEQGVKTRSSINLFNNLAFVSQIEPKSLKDAENDEFWILAMQEELNQFERNKVWELVHRPSNTSIIGTKWVFRNKMDENGNIIRNKARLVAQGYCQEEGIDYEETFAPVARLEAIRMLLAFASYKNFVLYQMDVKSAFLNGYIMEEVYVEQPPGFENVEFPHHVYKLKKALYGLKQAPRACFGEEDYRISLGIFISFHFPFLQIMGKGPGLYSDIGKRARDLLYRDYQSDQKFTITTYSPTGVAITSSGTKKGDLFLGDVNTQLKNKNITTDIKVDTSSNLVTTITVDEPAPGLKAILSFKVPDQRSGKVELQYLHDYAGISTSIGLTANPIVNFSGVVGSNLLALGTDLSFDTKTGNFTKVNTGLSFANADLIASLTLNDKGDTLSASYYHTVNPLTSTAVGAEVAHSFSSNENTITVGTQHALDPLTTVKARVNNFGKASALIQHEWRPKSFFTVSGEVDTKAIDKSAKVGLALALKP
Homology
[Close]
BLAST of CmaCh11G010420 vs. ExPASy Swiss-Prot
Match: P42055 (Mitochondrial outer membrane protein porin of 34 kDa OS=Solanum tuberosum OX=4113 PE=1 SV=2)

HSP 1 Score: 470.7 bits (1210), Expect = 4.5e-131
Identity = 231/276 (83.70%), Postives = 258/276 (93.48%), Query Frame = 0 

Query: 821  MGKGPGLYSDIGKRARDLLYRDYQSDQKFTITTYSPTGVAITSSGTKKGDLFLGDVNTQL 880
            MGKGPGLY++IGK+ARDLLY+DYQSD KF+ITTYSPTGV ITSSG+KKGDLFL DVNTQL
Sbjct: 1    MGKGPGLYTEIGKKARDLLYKDYQSDHKFSITTYSPTGVVITSSGSKKGDLFLADVNTQL 60

Query: 881  KNKNITTDIKVDTSSNLVTTITVDEPAPGLKAILSFKVPDQRSGKVELQYLHDYAGISTS 940
            KNKN+TTDIKVDT+SNL TTITVDE APGLK ILSF+VPDQRSGK+E+QYLHDYAGI TS
Sbjct: 61   KNKNVTTDIKVDTNSNLFTTITVDEAAPGLKTILSFRVPDQRSGKLEVQYLHDYAGICTS 120

Query: 941  IGLTANPIVNFSGVVGSNLLALGTDLSFDTKTGNFTKVNTGLSFANADLIASLTLNDKGD 1000
            +GLTANPIVNFSGVVG+N++ALGTD+SFDTKTG+FTK N GLSF NADL+ASL LN+KGD
Sbjct: 121  VGLTANPIVNFSGVVGTNIIALGTDVSFDTKTGDFTKCNAGLSFTNADLVASLNLNNKGD 180

Query: 1001 TLSASYYHTVNPLTSTAVGAEVAHSFSSNENTITVGTQHALDPLTTVKARVNNFGKASAL 1060
             L+ASYYHTV+PLTSTAVGAEV HSFS+NEN ITVGTQH LDPLT+VKAR+NNFGKASAL
Sbjct: 181  NLTASYYHTVSPLTSTAVGAEVNHSFSTNENIITVGTQHRLDPLTSVKARINNFGKASAL 240

Query: 1061 IQHEWRPKSFFTVSGEVDTKAIDKSAKVGLALALKP 1097
            +QHEWRPKS FTVSGEVDTK++DK AK GLALALKP
Sbjct: 241  LQHEWRPKSLFTVSGEVDTKSVDKGAKFGLALALKP 276

[Close]
BLAST of CmaCh11G010420 vs. ExPASy Swiss-Prot
Match: P42056 (Mitochondrial outer membrane protein porin of 36 kDa OS=Solanum tuberosum OX=4113 PE=1 SV=2)

HSP 1 Score: 458.0 bits (1177), Expect = 3.0e-127
Identity = 225/276 (81.52%), Postives = 256/276 (92.75%), Query Frame = 0 

Query: 821  MGKGPGLYSDIGKRARDLLYRDYQSDQKFTITTYSPTGVAITSSGTKKGDLFLGDVNTQL 880
            M KGPGLYSDIGK+ARDLLYRDY SD KFT+TTYS TGVAIT+SG KKG+LFL DV+TQL
Sbjct: 1    MVKGPGLYSDIGKKARDLLYRDYVSDHKFTVTTYSTTGVAITASGLKKGELFLADVSTQL 60

Query: 881  KNKNITTDIKVDTSSNLVTTITVDEPAPGLKAILSFKVPDQRSGKVELQYLHDYAGISTS 940
            KNKNITTD+KVDT+SN+ TTITVDEPAPGLK I SF VPDQ+SGKVELQYLH+YAGI+TS
Sbjct: 61   KNKNITTDVKVDTNSNVYTTITVDEPAPGLKTIFSFVVPDQKSGKVELQYLHEYAGINTS 120

Query: 941  IGLTANPIVNFSGVVGSNLLALGTDLSFDTKTGNFTKVNTGLSFANADLIASLTLNDKGD 1000
            IGLTA+P+VNFSGV G+N +ALGTDLSFDT TGNFTK N GLSF+++DLIASL LNDKGD
Sbjct: 121  IGLTASPLVNFSGVAGNNTVALGTDLSFDTATGNFTKCNAGLSFSSSDLIASLALNDKGD 180

Query: 1001 TLSASYYHTVNPLTSTAVGAEVAHSFSSNENTITVGTQHALDPLTTVKARVNNFGKASAL 1060
            T+SASYYHTV P+T+TAVGAE+ HSFSSNENT+T+GTQH LDPLTTVKARVN++GKASAL
Sbjct: 181  TVSASYYHTVKPVTNTAVGAELTHSFSSNENTLTIGTQHLLDPLTTVKARVNSYGKASAL 240

Query: 1061 IQHEWRPKSFFTVSGEVDTKAIDKSAKVGLALALKP 1097
            IQHEWRPKS FT+SGEVDT+AI+KSAK+GLA+ALKP
Sbjct: 241  IQHEWRPKSLFTISGEVDTRAIEKSAKIGLAVALKP 276

[Close]
BLAST of CmaCh11G010420 vs. ExPASy Swiss-Prot
Match: P42054 (Outer plastidial membrane protein porin OS=Pisum sativum OX=3888 GN=POR1 PE=1 SV=2)

HSP 1 Score: 435.3 bits (1118), Expect = 2.1e-120
Identity = 214/276 (77.54%), Postives = 245/276 (88.77%), Query Frame = 0 

Query: 821  MGKGPGLYSDIGKRARDLLYRDYQSDQKFTITTYSPTGVAITSSGTKKGDLFLGDVNTQL 880
            M KGPGLY+DIGK+ARDLLY+DY SD+KFTI+TYSPTGVAITSSGTKKG+LFLGDVNTQL
Sbjct: 1    MVKGPGLYTDIGKKARDLLYKDYHSDKKFTISTYSPTGVAITSSGTKKGELFLGDVNTQL 60

Query: 881  KNKNITTDIKVDTSSNLVTTITVDEPAPGLKAILSFKVPDQRSGKVELQYLHDYAGISTS 940
            KNKNITTDIKVDT+SNL TTITV+EPAPG+KAILSFKVP+Q SGKVELQYLH+YAGIS+S
Sbjct: 61   KNKNITTDIKVDTNSNLFTTITVNEPAPGVKAILSFKVPEQTSGKVELQYLHEYAGISSS 120

Query: 941  IGLTANPIVNFSGVVGSNLLALGTDLSFDTKTGNFTKVNTGLSFANADLIASLTLNDKGD 1000
            +GL ANPIVNFS V+G+N LA G D+SFDTK G  TK N  ++F   DLI SLTLN+KGD
Sbjct: 121  VGLKANPIVNFSSVIGTNALAFGADISFDTKLGELTKSNAAVNFVKDDLIGSLTLNEKGD 180

Query: 1001 TLSASYYHTVNPLTSTAVGAEVAHSFSSNENTITVGTQHALDPLTTVKARVNNFGKASAL 1060
             LSASYYH +NPL++TAVG +++H FS+ ENT T+GTQHALDPLTTVK RV N GKASAL
Sbjct: 181  LLSASYYHAINPLSNTAVGVDISHRFSTKENTFTLGTQHALDPLTTVKGRVTNSGKASAL 240

Query: 1061 IQHEWRPKSFFTVSGEVDTKAIDKSAKVGLALALKP 1097
            IQHEWRPKS  T+S EVDTKAI+KSAK+GL+LALKP
Sbjct: 241  IQHEWRPKSLITISSEVDTKAIEKSAKIGLSLALKP 276

[Close]
BLAST of CmaCh11G010420 vs. ExPASy Swiss-Prot
Match: Q9SRH5 (Mitochondrial outer membrane protein porin 1 OS=Arabidopsis thaliana OX=3702 GN=VDAC1 PE=1 SV=3)

HSP 1 Score: 425.6 bits (1093), Expect = 1.7e-117
Identity = 212/276 (76.81%), Postives = 245/276 (88.77%), Query Frame = 0 

Query: 821  MGKGPGLYSDIGKRARDLLYRDYQSDQKFTITTYSPTGVAITSSGTKKGDLFLGDVNTQL 880
            M KGPGLY++IGK+ARDLLY+D+ SDQKF+ITT+SP GVAITS+GTKKGDL LGDV  Q 
Sbjct: 1    MVKGPGLYTEIGKKARDLLYKDHNSDQKFSITTFSPAGVAITSTGTKKGDLLLGDVAFQS 60

Query: 881  KNKNITTDIKVDTSSNLVTTITVDEPAPGLKAILSFKVPDQRSGKVELQYLHDYAGISTS 940
            + KNITTD+KV T S  + T TVDE APGL++I SFKVPDQ SGKVELQYLH+YAGISTS
Sbjct: 61   RRKNITTDLKVCTDSTFLITATVDEAAPGLRSIFSFKVPDQNSGKVELQYLHEYAGISTS 120

Query: 941  IGLTANPIVNFSGVVGSNLLALGTDLSFDTKTGNFTKVNTGLSFANADLIASLTLNDKGD 1000
            +GLT NP VNFSGV+GSN+LA+GTD+SFDTK+GNFTK+N GLSF   DLIASLT+NDKGD
Sbjct: 121  MGLTQNPTVNFSGVIGSNVLAVGTDVSFDTKSGNFTKINAGLSFTKEDLIASLTVNDKGD 180

Query: 1001 TLSASYYHTVNPLTSTAVGAEVAHSFSSNENTITVGTQHALDPLTTVKARVNNFGKASAL 1060
             L+ASYYH VNPL +TAVGAEV+H  SS ++TITVGTQH+LDPLT+VKARVN+ G ASAL
Sbjct: 181  LLNASYYHIVNPLFNTAVGAEVSHKLSSKDSTITVGTQHSLDPLTSVKARVNSAGIASAL 240

Query: 1061 IQHEWRPKSFFTVSGEVDTKAIDKSAKVGLALALKP 1097
            IQHEW+PKSFFT+SGEVDTK+IDKSAKVGLALALKP
Sbjct: 241  IQHEWKPKSFFTISGEVDTKSIDKSAKVGLALALKP 276

[Close]
BLAST of CmaCh11G010420 vs. ExPASy Swiss-Prot
Match: Q9SMX3 (Mitochondrial outer membrane protein porin 3 OS=Arabidopsis thaliana OX=3702 GN=VDAC3 PE=1 SV=3)

HSP 1 Score: 400.6 bits (1028), Expect = 5.7e-110
Identity = 198/276 (71.74%), Postives = 235/276 (85.14%), Query Frame = 0 

Query: 821  MGKGPGLYSDIGKRARDLLYRDYQSDQKFTITTYSPTGVAITSSGTKKGDLFLGDVNTQL 880
            M KGPGLY++IGK+ARDLLYRDYQ DQKF++TTYS TGVAIT++GT KG LFLGDV TQ+
Sbjct: 1    MVKGPGLYTEIGKKARDLLYRDYQGDQKFSVTTYSSTGVAITTTGTNKGSLFLGDVATQV 60

Query: 881  KNKNITTDIKVDTSSNLVTTITVDEPAPGLKAILSFKVPDQRSGKVELQYLHDYAGISTS 940
            KN N T D+KV T S+L+TT+T DEPAPGLK I+  K+PD +SGK E+QY HDYAGISTS
Sbjct: 61   KNNNFTADVKVSTDSSLLTTLTFDEPAPGLKVIVQAKLPDHKSGKAEVQYFHDYAGISTS 120

Query: 941  IGLTANPIVNFSGVVGSNLLALGTDLSFDTKTGNFTKVNTGLSFANADLIASLTLNDKGD 1000
            +G TA PIVNFSGVVG+N L+LGTD++++T++GNF   N G +F   DL ASL LNDKG+
Sbjct: 121  VGFTATPIVNFSGVVGTNGLSLGTDVAYNTESGNFKHFNAGFNFTKDDLTASLILNDKGE 180

Query: 1001 TLSASYYHTVNPLTSTAVGAEVAHSFSSNENTITVGTQHALDPLTTVKARVNNFGKASAL 1060
             L+ASYY  V+P  ST VGAE++H+F++ EN ITVGTQHALDPLTTVKARVNN G A+AL
Sbjct: 181  KLNASYYQIVSP--STVVGAEISHNFTTKENAITVGTQHALDPLTTVKARVNNAGVANAL 240

Query: 1061 IQHEWRPKSFFTVSGEVDTKAIDKSAKVGLALALKP 1097
            IQHEWRPKSFFTVSGEVD+KAIDKSAKVG+ALALKP
Sbjct: 241  IQHEWRPKSFFTVSGEVDSKAIDKSAKVGIALALKP 274

[Close]
BLAST of CmaCh11G010420 vs. TAIR 10
Match: AT3G01280.1 (voltage dependent anion channel 1 )

HSP 1 Score: 425.6 bits (1093), Expect = 1.2e-118
Identity = 212/276 (76.81%), Postives = 245/276 (88.77%), Query Frame = 0 

Query: 821  MGKGPGLYSDIGKRARDLLYRDYQSDQKFTITTYSPTGVAITSSGTKKGDLFLGDVNTQL 880
            M KGPGLY++IGK+ARDLLY+D+ SDQKF+ITT+SP GVAITS+GTKKGDL LGDV  Q 
Sbjct: 1    MVKGPGLYTEIGKKARDLLYKDHNSDQKFSITTFSPAGVAITSTGTKKGDLLLGDVAFQS 60

Query: 881  KNKNITTDIKVDTSSNLVTTITVDEPAPGLKAILSFKVPDQRSGKVELQYLHDYAGISTS 940
            + KNITTD+KV T S  + T TVDE APGL++I SFKVPDQ SGKVELQYLH+YAGISTS
Sbjct: 61   RRKNITTDLKVCTDSTFLITATVDEAAPGLRSIFSFKVPDQNSGKVELQYLHEYAGISTS 120

Query: 941  IGLTANPIVNFSGVVGSNLLALGTDLSFDTKTGNFTKVNTGLSFANADLIASLTLNDKGD 1000
            +GLT NP VNFSGV+GSN+LA+GTD+SFDTK+GNFTK+N GLSF   DLIASLT+NDKGD
Sbjct: 121  MGLTQNPTVNFSGVIGSNVLAVGTDVSFDTKSGNFTKINAGLSFTKEDLIASLTVNDKGD 180

Query: 1001 TLSASYYHTVNPLTSTAVGAEVAHSFSSNENTITVGTQHALDPLTTVKARVNNFGKASAL 1060
             L+ASYYH VNPL +TAVGAEV+H  SS ++TITVGTQH+LDPLT+VKARVN+ G ASAL
Sbjct: 181  LLNASYYHIVNPLFNTAVGAEVSHKLSSKDSTITVGTQHSLDPLTSVKARVNSAGIASAL 240

Query: 1061 IQHEWRPKSFFTVSGEVDTKAIDKSAKVGLALALKP 1097
            IQHEW+PKSFFT+SGEVDTK+IDKSAKVGLALALKP
Sbjct: 241  IQHEWKPKSFFTISGEVDTKSIDKSAKVGLALALKP 276

[Close]
BLAST of CmaCh11G010420 vs. TAIR 10
Match: AT5G15090.1 (voltage dependent anion channel 3 )

HSP 1 Score: 400.6 bits (1028), Expect = 4.1e-111
Identity = 198/276 (71.74%), Postives = 235/276 (85.14%), Query Frame = 0 

Query: 821  MGKGPGLYSDIGKRARDLLYRDYQSDQKFTITTYSPTGVAITSSGTKKGDLFLGDVNTQL 880
            M KGPGLY++IGK+ARDLLYRDYQ DQKF++TTYS TGVAIT++GT KG LFLGDV TQ+
Sbjct: 1    MVKGPGLYTEIGKKARDLLYRDYQGDQKFSVTTYSSTGVAITTTGTNKGSLFLGDVATQV 60

Query: 881  KNKNITTDIKVDTSSNLVTTITVDEPAPGLKAILSFKVPDQRSGKVELQYLHDYAGISTS 940
            KN N T D+KV T S+L+TT+T DEPAPGLK I+  K+PD +SGK E+QY HDYAGISTS
Sbjct: 61   KNNNFTADVKVSTDSSLLTTLTFDEPAPGLKVIVQAKLPDHKSGKAEVQYFHDYAGISTS 120

Query: 941  IGLTANPIVNFSGVVGSNLLALGTDLSFDTKTGNFTKVNTGLSFANADLIASLTLNDKGD 1000
            +G TA PIVNFSGVVG+N L+LGTD++++T++GNF   N G +F   DL ASL LNDKG+
Sbjct: 121  VGFTATPIVNFSGVVGTNGLSLGTDVAYNTESGNFKHFNAGFNFTKDDLTASLILNDKGE 180

Query: 1001 TLSASYYHTVNPLTSTAVGAEVAHSFSSNENTITVGTQHALDPLTTVKARVNNFGKASAL 1060
             L+ASYY  V+P  ST VGAE++H+F++ EN ITVGTQHALDPLTTVKARVNN G A+AL
Sbjct: 181  KLNASYYQIVSP--STVVGAEISHNFTTKENAITVGTQHALDPLTTVKARVNNAGVANAL 240

Query: 1061 IQHEWRPKSFFTVSGEVDTKAIDKSAKVGLALALKP 1097
            IQHEWRPKSFFTVSGEVD+KAIDKSAKVG+ALALKP
Sbjct: 241  IQHEWRPKSFFTVSGEVDSKAIDKSAKVGIALALKP 274

[Close]
BLAST of CmaCh11G010420 vs. TAIR 10
Match: AT5G15090.2 (voltage dependent anion channel 3 )

HSP 1 Score: 400.6 bits (1028), Expect = 4.1e-111
Identity = 198/276 (71.74%), Postives = 235/276 (85.14%), Query Frame = 0 

Query: 821  MGKGPGLYSDIGKRARDLLYRDYQSDQKFTITTYSPTGVAITSSGTKKGDLFLGDVNTQL 880
            M KGPGLY++IGK+ARDLLYRDYQ DQKF++TTYS TGVAIT++GT KG LFLGDV TQ+
Sbjct: 1    MVKGPGLYTEIGKKARDLLYRDYQGDQKFSVTTYSSTGVAITTTGTNKGSLFLGDVATQV 60

Query: 881  KNKNITTDIKVDTSSNLVTTITVDEPAPGLKAILSFKVPDQRSGKVELQYLHDYAGISTS 940
            KN N T D+KV T S+L+TT+T DEPAPGLK I+  K+PD +SGK E+QY HDYAGISTS
Sbjct: 61   KNNNFTADVKVSTDSSLLTTLTFDEPAPGLKVIVQAKLPDHKSGKAEVQYFHDYAGISTS 120

Query: 941  IGLTANPIVNFSGVVGSNLLALGTDLSFDTKTGNFTKVNTGLSFANADLIASLTLNDKGD 1000
            +G TA PIVNFSGVVG+N L+LGTD++++T++GNF   N G +F   DL ASL LNDKG+
Sbjct: 121  VGFTATPIVNFSGVVGTNGLSLGTDVAYNTESGNFKHFNAGFNFTKDDLTASLILNDKGE 180

Query: 1001 TLSASYYHTVNPLTSTAVGAEVAHSFSSNENTITVGTQHALDPLTTVKARVNNFGKASAL 1060
             L+ASYY  V+P  ST VGAE++H+F++ EN ITVGTQHALDPLTTVKARVNN G A+AL
Sbjct: 181  KLNASYYQIVSP--STVVGAEISHNFTTKENAITVGTQHALDPLTTVKARVNNAGVANAL 240

Query: 1061 IQHEWRPKSFFTVSGEVDTKAIDKSAKVGLALALKP 1097
            IQHEWRPKSFFTVSGEVD+KAIDKSAKVG+ALALKP
Sbjct: 241  IQHEWRPKSFFTVSGEVDSKAIDKSAKVGIALALKP 274

[Close]
BLAST of CmaCh11G010420 vs. TAIR 10
Match: AT5G15100.1 (Auxin efflux carrier family protein )

HSP 1 Score: 380.2 bits (975), Expect = 5.7e-105
Identity = 210/367 (57.22%), Postives = 270/367 (73.57%), Query Frame = 0 

Query: 1   MISLSDVYHVVAATVPLYVAMILAYISVRWWKFFTAEQCCGINKFVAKFSIPLLSFQIIS 60
           MIS  D+YHVV+ATVPLYV+M L ++S R  K F+ EQC GINKFVAKFSIPLLSFQIIS
Sbjct: 1   MISWLDIYHVVSATVPLYVSMTLGFLSARHLKLFSPEQCAGINKFVAKFSIPLLSFQIIS 60

Query: 61  DNNLYKMNLQLILADFVQKILAIALMGAVTKI----TSRGG-LNWIITGLSLSTMPNTLI 120
           +NN +KM+ +LIL+D +QK L + ++  V +       RGG L W+ITGLS+S +PNTLI
Sbjct: 61  ENNPFKMSPKLILSDILQKFLVVVVLAMVLRFWHPTGGRGGKLGWVITGLSISVLPNTLI 120

Query: 121 LGLPVLKAMYGSEADVLLAQIVVLQSVVWYNILLFLFEFTTTKAAALAPAS------EAI 180
           LG+P+L A+YG EA  +L QIVVLQS++WY ILLFLFE    +A   + AS      +  
Sbjct: 121 LGMPILSAIYGDEAASILEQIVVLQSLIWYTILLFLFELNAARALPSSGASLEHTGNDQE 180

Query: 181 EIDITEEGLAKEEGEEARDSNGRRHKTRSILFTVARKLIYNPNTHATILGLIWASIRFRW 240
           E +I +E   +E+ EE      R   T  IL    RKLI NPNT+AT++G+IWA++ FR 
Sbjct: 181 EANIEDEPKEEEDEEEVAIVRTRSVGTMKILLKAWRKLIINPNTYATLIGIIWATLHFRL 240

Query: 241 GVKLPEVIDRSITILSTGGLGMAMFSLGLFMGSRTSIIACSIKMTLVAMGMKFLMGPALM 300
           G  LPE+ID+SI +LS GGLGMAMFSLGLFM S++SIIAC  KM ++ M +KF++GPALM
Sbjct: 241 GWNLPEMIDKSIHLLSDGGLGMAMFSLGLFMASQSSIIACGTKMAIITMLLKFVLGPALM 300

Query: 301 AASSLPLGLKGRLLRVAIVQAALPQGIVPFVFAKEYNIHPDVLSTGVLLGLLVALPVALA 357
            AS+  + LK  L +VAI+QAALPQG+VPFVFAKEYN+HP+++STGV+ G+L+ALP  LA
Sbjct: 301 IASAYCIRLKSTLFKVAILQAALPQGVVPFVFAKEYNLHPEIISTGVIFGMLIALPTTLA 360

[Close]
BLAST of CmaCh11G010420 vs. TAIR 10
Match: AT5G67500.1 (voltage dependent anion channel 2 )

HSP 1 Score: 280.4 bits (716), Expect = 6.1e-75
Identity = 140/276 (50.72%), Postives = 190/276 (68.84%), Query Frame = 0 

Query: 821  MGKGPGLYSDIGKRARDLLYRDYQSDQKFTITTYSPTGVAITSSGTKKGDLFLGDVNTQL 880
            M KGPGL++DIGK+A+DLL RDY SDQKF+I+TYS +GVA+TS+  KKG +   DV TQ 
Sbjct: 1    MSKGPGLFTDIGKKAKDLLTRDYNSDQKFSISTYSASGVALTSTALKKGGVHAADVATQY 60

Query: 881  KNKNITTDIKVDTSSNLVTTITVDEPAPGLKAILSFKVPDQRSGKVELQYLHDYAGISTS 940
            K KN   D+K+DT S+++TT+T+ E  P  KAI SFKVPD  S K+E+QY HD+A ++ +
Sbjct: 61   KYKNALFDVKIDTDSSVLTTVTLTEILPSTKAIASFKVPDYNSAKLEVQYFHDHATVTAA 120

Query: 941  IGLTANPIVNFSGVVGSNLLALGTDLSFDTKTGNFTKVNTGLSFANADLIASLTLNDKGD 1000
              L  NP+++ +  +GS +++ G +  +DT +  FTK N G+S    D   S+ L DKGD
Sbjct: 121  AALKQNPLIDITATLGSPVISFGAEAGYDTTSKTFTKYNAGISVTKPDACLSIILGDKGD 180

Query: 1001 TLSASYYHTVNPLTSTAVGAEVAHSFSSNENTITVGTQHALDPLTTVKARVNNFGKASAL 1060
            +L ASY H  +    TA   EV   FS+NENTITVG  +A+D  T VKA++NN G   AL
Sbjct: 181  SLKASYLHHFDEFKRTAAVGEVYRKFSTNENTITVGGLYAIDHSTAVKAKLNNHGTLGAL 240

Query: 1061 IQHEWRPKSFFTVSGEVDTKAIDKSAKVGLALALKP 1097
            +QHE  P+S  TVS E+DTKA++K  + GL+LALKP
Sbjct: 241  LQHEVLPRSLVTVSSEIDTKALEKHPRFGLSLALKP 276

The following BLAST results are available for this feature:
BLAST of CmaCh11G010420 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
P420554.5e-13183.70Mitochondrial outer membrane protein porin of 34 kDa OS=Solanum tuberosum OX=411... [more]
P420563.0e-12781.52Mitochondrial outer membrane protein porin of 36 kDa OS=Solanum tuberosum OX=411... [more]
P420542.1e-12077.54Outer plastidial membrane protein porin OS=Pisum sativum OX=3888 GN=POR1 PE=1 SV... [more]
Q9SRH51.7e-11776.81Mitochondrial outer membrane protein porin 1 OS=Arabidopsis thaliana OX=3702 GN=... [more]
Q9SMX35.7e-11071.74Mitochondrial outer membrane protein porin 3 OS=Arabidopsis thaliana OX=3702 GN=... [more]
BLAST of CmaCh11G010420 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G01280.11.2e-11876.81voltage dependent anion channel 1 [more]
AT5G15090.14.1e-11171.74voltage dependent anion channel 3 [more]
AT5G15090.24.1e-11171.74voltage dependent anion channel 3 [more]
AT5G15100.15.7e-10557.22Auxin efflux carrier family protein [more]
AT5G67500.16.1e-7550.72voltage dependent anion channel 2 [more]
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR001878Zinc finger, CCHC-typeSMARTSM00343c2hcfinal6coord: 442..458
e-value: 0.002
score: 27.4
IPR001878Zinc finger, CCHC-typePFAMPF00098zf-CCHCcoord: 442..457
e-value: 2.0E-4
score: 21.3
IPR001878Zinc finger, CCHC-typePROSITEPS50158ZF_CCHCcoord: 443..457
score: 9.982374
IPR013103Reverse transcriptase, RNA-dependent DNA polymerasePFAMPF07727RVT_2coord: 667..796
e-value: 4.2E-47
score: 160.8
IPR027246Eukaryotic porin/Tom40PFAMPF01459Porin_3coord: 825..1089
e-value: 1.5E-74
score: 250.9
IPR004776Membrane transport proteinPFAMPF03547Mem_transcoord: 9..351
e-value: 3.3E-95
score: 318.7
IPR014024Auxin efflux carrier, plant typeTIGRFAMTIGR00946TIGR00946coord: 1..356
e-value: 1.2E-94
score: 315.1
IPR023614Porin domain superfamilyGENE3D2.40.160.10Porincoord: 818..1095
e-value: 1.5E-90
score: 305.3
NoneNo IPR availableGENE3D4.10.60.10coord: 435..476
e-value: 3.2E-6
score: 29.3
NoneNo IPR availablePANTHERPTHR11743:SF50MITOCHONDRIAL OUTER MEMBRANE PROTEIN PORIN 3coord: 816..1096
coord: 204..310
IPR001925Porin, eukaryotic typePANTHERPTHR11743VOLTAGE-DEPENDENT ANION-SELECTIVE CHANNELcoord: 816..1096
coord: 204..310
IPR001925Porin, eukaryotic typePROSITEPS00558EUKARYOTIC_PORINcoord: 1039..1061
IPR001925Porin, eukaryotic typeCDDcd07306Porin3_VDACcoord: 825..1095
e-value: 1.27352E-95
score: 303.361
IPR036875Zinc finger, CCHC-type superfamilySUPERFAMILY57756Retrovirus zinc finger-like domainscoord: 429..463
IPR043502DNA/RNA polymerase superfamilySUPERFAMILY56672DNA/RNA polymerasescoord: 666..797

Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
CmaCh11G010420.1CmaCh11G010420.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0098656 anion transmembrane transport
biological_process GO:0010315 auxin efflux
biological_process GO:0010252 auxin homeostasis
biological_process GO:0009926 auxin polar transport
biological_process GO:0015698 inorganic anion transport
biological_process GO:0055085 transmembrane transport
cellular_component GO:0005783 endoplasmic reticulum
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0005741 mitochondrial outer membrane
cellular_component GO:0005886 plasma membrane
molecular_function GO:0010329 auxin efflux transmembrane transporter activity
molecular_function GO:0003676 nucleic acid binding
molecular_function GO:0008308 voltage-gated anion channel activity
molecular_function GO:0008270 zinc ion binding